b'\n \n \n
 
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sfescst3 (4.0)
index
user/cram/Mescst3.c
\n Escape tables by stitching of escape solutions in supercells in 3-D. \n

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\n Synopsis
       sfescst3 < spdom.rsf > out.rsf vspl=vspline.rsf scgrid=scgrid.rsf scdaemon=scdaemon.rsf na=360 nb=180 mp=1 nc=0 aper=SF_HUGE parab=y mmaped=y rfail=y verb=n morder=1 inet=1 tdel=0
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\n Parameters
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float aper=SF_HUGE
\tMaximum aperture in x and y directions from current point (default - up to grid boundaries)
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int inet=1
\tNetwork interface index
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bool mmaped=y [y/n]
\tn - do not use memory mapping for local data access
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int morder=1
\tOrder of interpolation accuracy in the angular domain (1-3)
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int mp=1
\tBufferization factor for multicore processing (number of points in buffer = mp*nc)
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int na=360
\tNumber of azimuth phase angles
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int nb=180
\tNumber of inclination phase angles
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int nc=0
\tNumber of threads to use for ray tracing (OMP_NUM_THREADS by default)
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bool parab=y [y/n]
\ty - use parabolic approximation of trajectories, n - straight line
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bool rfail=y [y/n]
\tn - do not quit if remote processing fails, try local processing
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string scdaemon=
\tDaemon for distributed computation (auxiliary input file name)
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string scgrid=
\tGrid of supercells of local escape solutions (auxiliary input file name)
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int tdel=0
\tOptional delay time before connecting (seconds)
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bool verb=n [y/n]
\tverbosity flag
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string vspl=
\tSpline coefficients for velocity model (auxiliary input file name)
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